ID:
publications-1196
Type:
PEER REVIEWED ARTICLE
Year:
2014
Authors:
S. Schmutz , T. H. Bakken , T. Friedrich , F. Greimel , A. Harby , M. Jungwirth , A. Melcher , G. Unfer , B. Zeiringer
Title:
Response of Fish Communities to Hydrological and Morphological Alterations in Hydropeaking Rivers of Austria
Venue/Journal:
DOI:
10.1002/rra.2795
Research type:
Uncategorized
Water System:
Natural Water Bodies
Technical Focus:
Abstract:
AbstractClimate change asks for the reduction in the consumption of fossilâbased fuels and an increased share of nonâregulated renewable energy sources, such as solar and wind power. In order to back up a larger share of these intermittent sources, âbattery servicesâ are needed, currently provided only in large scale by hydropower, leading to more rapid and frequent changes in flows (hydropeaking) in the downstream rivers. Increased knowledge about the ecosystem response to such operations and design of costâeffective measures is needed.We analysed the response of fish communities to hydropeaking (frequency, magnitude, ramping rate and timing) and the interaction with the habitat conditions in Austrian rivers. An index of biotic integrity (Fish Index Austria) was used to compare river sections with varying degrees of flow fluctuations under nearânatural and channelized habitat conditions. The results showed that habitat conditions, peak frequency (number of peaks per year), ramping rate (water level variation) and interaction between habitat and ramping rate explained most of the variation of the Fish Index Austria. In addition, peaking during the night seems to harm fish more than peaking during the day. Fish communities in hyporhithral and epipotamal types of rivers are more affected by hydropeaking than those in metarhithral type of rivers. The results support the findings of other studies that fish stranding caused by ramping rates >15âcmâhâ1 are likely to be the main cause of fish community degradation when occurring more often than 20 times a year. While the ecological status degrades with increasing ramping rate in natureâlike rivers, fish communities are heavily degraded in channelized rivers regardless of the ramping rate. The mitigation of hydropeaking, therefore, requires an integrative approach considering the combined effects of hydrological and morphological alterations on fish. © 2014 The Authors. River Research and Applications published by John Wiley & Sons, Ltd.
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603378
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